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proportion (version 1.2.0)

ciEX: Exact method of CI estimation

Description

Exact method of CI estimation

Usage

ciEX(n, alp, e)

Arguments

n
- Number of trials
alp
- Alpha value (significance level required)
e
- Exact method indicator in [0, 1] {1: Clopper Pearson, 0.5: Mid P}, The input can also be a range of values between 0 and 1.

Value

  • A dataframe with
  • x- Number of successes (positive samples)
  • LEX- Exact Lower limit
  • UEX- Exact Upper Limit
  • LABB- Likelihood Ratio Lower Abberation
  • UABB- Likelihood Ratio Upper Abberation
  • ZWI- Zero Width Interval
  • e- Exact method input

Details

Confidence interval for p (for all x = 0, 1, 2 ..n), based on inverting equal-tailed binomial tests with null hypothesis $$H0: p = p0$$ and calculated from the cumulative binomial distribution. Exact two sided P-value is usually calculated as $$P= 2[e*Pr(X = x) + min{(Pr(X < x), Pr(X > x))}]$$ where probabilities are found at null value of p and $0 <= e="" <="1$." the="" confidence="" interval="" of="" n given alp along with lower and upper abberation.

References

[1] 1993 Vollset SE. Confidence intervals for a binomial proportion. Statistics in Medicine: 12; 809 - 824. [2] 1998 Agresti A and Coull BA. Approximate is better than "Exact" for interval estimation of binomial proportions. The American Statistician: 52; 119 - 126. [3] 1998 Newcombe RG. Two-sided confidence intervals for the single proportion: Comparison of seven methods. Statistics in Medicine: 17; 857 - 872. [4] 2001 Brown LD, Cai TT and DasGupta A. Interval estimation for a binomial proportion. Statistical Science: 16; 101 - 133. [5] 2002 Pan W. Approximate confidence intervals for one proportion and difference of two proportions Computational Statistics and Data Analysis 40, 128, 143-157. [6] 2008 Pires, A.M., Amado, C. Interval Estimators for a Binomial Proportion: Comparison of Twenty Methods. REVSTAT - Statistical Journal, 6, 165-197. [7] 2014 Martin Andres, A. and Alvarez Hernandez, M. Two-tailed asymptotic inferences for a proportion. Journal of Applied Statistics, 41, 7, 1516-1529

See Also

prop.test and binom.test for equivalent base Stats R functionality, binom.confint provides similar functionality for 11 methods, wald2ci which provides multiple functions for CI calculation , binom.blaker.limits which calculates Blaker CI which is not covered here and propCI which provides similar functionality. Other Basic methods of CI estimation: PlotciAS, PlotciAllg, PlotciAll, PlotciBA, PlotciEX, PlotciLR, PlotciLT, PlotciSC, PlotciTW, PlotciWD, ciAS, ciAll, ciBA, ciLR, ciLT, ciSC, ciTW, ciWD

Examples

Run this code
n=5; alp=0.05;e=0.5
ciEX(n,alp,e) #Mid-p
n=5; alp=0.05;e=1 #Clopper-Pearson
ciEX(n,alp,e)
n=5; alp=0.05;e=c(0.1,0.5,0.95,1) #Range including Mid-p and Clopper-Pearson
ciEX(n,alp,e)

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